Mahsa
Mahsa Ajilian, Richmond Hill CA
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20100302778 | LED LIGHTING FIXTURE - A light fixture comprising a mounting housing comprising a junction box and a first connector component and a light housing comprising at least one light emitting diode contained within the light housing and electrically coupled to a second connector component complementary to the first connector component. | 12-02-2010 |
Mahsa Dornajafi, Adelphi, MD US
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20130089769 | THIN FLEXIBLE ELECTROCHEMICAL ENERGY CELL - An electrochemical energy cell has a galvanic cell including an anode electrode unit, a cathode electrode unit, an electrolyte body between the anode and cathode electrode units and contacting both the anode and cathode electrode units, and a separator layer including the electrolyte body and placed within the cell to contact both the anode and cathode electrode units to bring the anode and cathode electrode units in contact with the electrolyte body. The cathode electrode unit includes a cathode material including a powder mixture of a powder of hydrated ruthenium oxide and one or more additives. The anode electrode unit includes a structure formed of an oxidizable metal, and the separator layer includes a material that is porous to ions in liquid and is electrically non-conductive. A flexible electrochemical cell can be configured for a reduction-oxidation reaction to generate power at a surface of the electrode unit(s). | 04-11-2013 |
20130108935 | ZINC-WATER BATTERY AND SYSTEM | 05-02-2013 |
Mahsa Fischer, Wiesloch DE
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20150033189 | METHODS AND SYSTEMS OF SPIRAL NAVIGATION - Methods and systems of navigating through process steps of a guided procedure are described. A plurality of process step identifiers may be caused to be displayed in a spiral formation in a graphical user interface of a device. Each process step identifier may identify a corresponding process step of a guided procedure. The process step identifiers may be displayed in positions along the spiral formation that reflect an order of their corresponding process steps in the guided procedure. User input may be received for one of the process steps of the guided procedure using the process step identifier that corresponds to the one of the process steps for which the user input is received. The plurality of process step identifiers may be caused to be rotated within the graphical user interface of the device. | 01-29-2015 |
Mahsa Mashoof, Solna SE
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20130095400 | ELECTROCHEMICALLY ACTUATED VALVE - An electrochemically operable actuator ( | 04-18-2013 |
Mahsa Ranji, Milwaukee, WI US
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20110288418 | IN VIVO MEASUREMENT OF MITOCHONDRIAL FUNCTION - Disclosed herein are devices for assessing mitochondrial function in a living subject comprising a catheter comprising a sheath defining a lumen, a distal end, and a proximal end comprising a light guide for radiating light onto a target within the subject and for receiving a fluorescence signal from the target; a light source, wherein the catheter is adapted for transmitting light from the light source to the light guide; and, a detector for receiving the fluorescence signal from the light guide and for correlating the fluorescence signal to the mitochondrial function of the target. Also disclosed are methods for assessing mitochondrial function in a living subject comprising placing a catheter proximate to a site of interest within the subject; using the catheter to acquire fluorescence signals from cells at the site of interest; and, correlating the fluorescence signals to the mitochondrial function of the cells. | 11-24-2011 |
Mahsa Rohani, Bridgewater, NJ US
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20150203529 | STERILE CHROMATOGRAPHY AND MANUFACTURING PROCESSES - Provided herein are methods of performing chromatography with gamma-irradiated chromatography resin that include providing a chromatography column including a gamma-irradiated chromatography resin; performing a first cycle of chromatography through the column, where the cycle includes exposing the chromatography resin to a denaturing buffer; and performing at least one additional cycle of chromatography through the column. Also provided are integrated, closed or substantially closed, and continuous processes for manufacturing of a recombinant protein that include the use of at least one chromatography column including gamma-irradiated chromatography resin, where the gamma-irradiated chromatography resin is exposed to denaturing buffer during each cycle in the process, and reduced bioburden buffer is used in the process. | 07-23-2015 |
20150203532 | STERILE CHROMATOGRAPHY AND MANUFACTURING PROCESSES - Provided herein are methods of performing chromatography with gamma-irradiated chromatography resin that include providing a chromatography column including a gamma-irradiated chromatography resin; performing a first cycle of chromatography through the column, where the cycle includes exposing the chromatography resin to a denaturing buffer; and performing at least one additional cycle of chromatography through the column. Also provided are integrated, closed or substantially closed, and continuous processes for manufacturing of a recombinant protein that include the use of at least one chromatography column including gamma-irradiated chromatography resin, where the gamma-irradiated chromatography resin is exposed to denaturing buffer during each cycle in the process, and reduced bioburden buffer is used in the process. | 07-23-2015 |
Mahsa Rouhanizadeh, Newport Beach, CA US
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20120215121 | MEMS VASCULAR SENSOR - A micromachined sensor for measuring vascular parameters, such as fluid shear stress, includes a substrate having a front-side surface, and a backside surface opposite the front-side surface. The sensor includes a diaphragm overlying a cavity etched within the substrate, and a heat sensing element disposed on the front-side surface of the substrate and on top of the cavity and the diaphragm. The heat sensing element is electrically couplable to electrode leads formed on the backside surface of the substrate. The sensor includes an electronic system connected to the backside surface and configured to measure a change in heat convection from the sensing element to surrounding fluid when the sensing element is heated by applying an electric current thereto, and further configured to derive from the change in heat convection vascular parameters such as the shear stress of fluid flowing past the sensing element. | 08-23-2012 |
Mahsa Rouhanizadeh, Los Angeles, CA US
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20080210543 | MEMS Vascular Sensor - A micromachined sensor for measuring vascular parameters, such as fluid shear stress, includes a substrate having a front-side surface, and a backside surface opposite the front-side surface. The sensor includes a diaphragm overlying a cavity etched within the substrate, and a heat sensing element disposed on the front-side surface of the substrate and on top of the cavity and the diaphragm. The heat sensing element is electrically couplable to electrode leads formed on the backside surface of the substrate. The sensor includes an electronic system connected to the backside surface and configured to measure a change in heat convection from the sensing element to surrounding fluid when the sensing element is heated by applying an electric current thereto, and further configured to derive from the change in heat convection vascular parameters such as the shear stress of fluid flowing past the sensing element. | 09-04-2008 |
Mahsa Shoaran, St-Sulpice Vd CH
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20150333534 | Low Power Nanoelectronics - Disclosed are low power electronic devices configured to exploit the sub-threshold swing, unidirectional tunneling, and low-voltage operation of steep slope-tunnel tunnel field-effect transistors (TFET) to improve power-conversion efficiency and power-efficiency of electrical systems incorporating the TFET as an electrical component to perform energy harvesting, signal processing, and related operations. The devices include a HTFET-based rectifier having various topologies, a HTFET-based DC-DC charge pump converter, a HTFET-based amplifier having an amplifier circuit including a telescopic operational transconductance amplifier, and a HTFET-based SAR A/D converter having a HTFET-based transmission gate DFF. Any one of the devices may be used to generate a RF-powered system with improved power conversion efficiencies of power harvesters and power efficiencies of processing components within the system. | 11-19-2015 |
Mahsa Talebpourazad, Vancouver CA
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20150030233 | System and Method for Determining a Depth Map Sequence for a Two-Dimensional Video Sequence - A system and method of determining a depth map sequence for a subject two-dimensional video sequence by: determining a plurality of monocular depth cues for each frame of the subject two-dimensional video sequence; and determining a depth map for each frame of the subject two-dimensional video sequence based on the application of the plurality of monocular depth cues determined for the frame to a depth map model. The depth map model determined by: determining a plurality of monocular depth cues for one or more training two-dimensional video sequences; and determining a depth map model based the plurality of monocular depth cues of the one or more training two-dimensional video sequences and corresponding known depth maps for each of the one or more training two-dimensional video sequences. | 01-29-2015 |